JPH05150871A - Information processor - Google Patents

Abstract

PURPOSE:To accomplish saving power of an information processor by providing a power input terminal which inputs the power from a 1st power supply, a 2nd power supply; and a switch means which performs the switching between both power supplies. CONSTITUTION:A device plug 232 is provided with a detector switch 234 to detect a fact that a power plug 235 is put into the plug 232. When the plug 235 is put into the plug 232, the switch 234 is pushed up. Thus a mechanical means 232 is mechanically connected to a switch SW and this switch is changed over to a contact A. When the plug 235 is taken out of the plug 232, no force is applied to the switch 234 and a contact B is automatically selected. Then AC100V supplied from outside is chosen with selection of the contact A, and a 3V power supply of a battery 500 is chosen with selection of the contact B respectively. In such a constitution, the power saving is accomplished for an information processor.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an information processing apparatus such as a personal computer or a workstation, and more particularly to power saving control.

[0002]

2. Description of the Related Art Generally, a power saving control method used in a small information processing apparatus is to turn on / off a backlight of a liquid crystal display, a hard disk, a floppy disk, etc.
The power was saved by turning on / off the components that make up the processing device by the off control.

As such a conventional technique, Japanese Patent Laid-Open No.
There is a power control device described in Japanese Patent Laid-Open No. 63-75913.

[0004]

SUMMARY OF THE INVENTION The present invention provides an information processing apparatus for performing power saving control for the entire information processing apparatus, which is different from the power saving control for turning on / off each component in the prior art.

[0005]

According to the present invention, in order to perform power saving control of the entire information processing apparatus, in an information processing apparatus having a central processing unit and a memory, a power input terminal from a first power source and a second And a switching means for switching between the first power source and the second power source.

[0006]

In order to achieve the above object, in an information processing apparatus having a central processing unit and a memory, a power source input terminal from a first power source and a second power source are provided, and the switching means is Switching between the first power supply and the second power supply.

The power supply voltage is the first power supply voltage when the first power supply is used, and the second power supply voltage when the second power supply is used, and the first power supply voltage is the second power supply voltage. Power consumption is achieved by being higher than the power supply voltage of.

[0008]

EXAMPLE The main purpose of power saving in an information processing apparatus is to improve portability by reducing the size of a battery or the like by saving power and to guarantee a long operating time when the battery is driven. Since the battery is mainly used when moving, the information processing device is used, for example, for a word processor function for making materials or for organizing data. Therefore, it is not necessary to use the maximum processing capacity of the internal CPU of the information processing device. Therefore, the processing capacity of the information processing apparatus at this time can be sufficiently supported even if it is less than the processing capacity on the desk using the AC power supply (first power supply) of 100V as the drive source.

Generally, (1) in order to reduce power consumption, lowering the power supply voltage of the logic LSI constituting the information processing device has a great effect. (2) However, the operation associated with the lowering of the power supply voltage CPU due to reduced clock frequency
It is known that processing performance is degraded.

However, considering that the purpose of power saving in the above-mentioned small-sized information processing apparatus is to improve portability, the above (2) is unlikely to cause a problem when moving, so the power supply voltage is lowered. May be. In this embodiment, the power supply voltage is lowered from the viewpoint when it is carried.

An embodiment of the present invention will be described with reference to FIGS.

In FIG. 1, an information processing apparatus includes a substrate-based information processing apparatus main body 101, a hard disk device (hereinafter HDD) 270 as an external storage device, a CRT or a liquid crystal display (hereinafter LCD) 280, and a keyboard. 290 and. In addition, the detailed configuration of the information processing apparatus main body 101 mounted on the board is as follows: CPU 200, ROM 210, RAM
220 and an HDD controller 240 that controls the HDD 270
And an LCD controller 250 for controlling the LCD 280 and a keyboard controller 26 for controlling the keyboard 290.
0, a bus 320 that connects them, and a power supply control circuit 230 that supplies power to these.

Here, the structure of the substrate 100 on which the information processing apparatus is mounted, which realizes the above-described present invention, will be described with reference to FIG. In FIG. 4, 600 is a logic LSI, 610 is a power supply pin of the logic LSI 600, and 100 is a logic LSI 60.
A board on which 0 is mounted, 110 is, for example, DC5V, LSI6
00 power supply layer for supplying to the power supply pin 610 of 00,
120 is, for example, D lower than the voltage DC5V of the first power supply layer
This is a second power supply layer for supplying C3V to the power supply pin 610 of the LSI 600. The power supply pin 610 in the logic LSI 600 is commonly connected to the first power supply layer 110 and the second power supply layer 120 in the substrate 100, but as described later, a voltage is exclusively supplied from one of the power supply layers. Therefore, the power supply pin 610 does not short-circuit DC5V and DC3V between the first power supply layer 110 and the second power supply layer 120.

That is, as shown in FIG. 2, the power supply control circuit 230 divides the drive power supply used by the information processing apparatus, and when the AC power supply 400 is used as the drive power supply, such as in a desk, the processing performance is improved. DC5 that can bring out the maximum
V is supplied through the first power supply layer 110 of the substrate 100,
Also, in the case of the main usage such as data arrangement using the battery 500 as a driving power source or the preparation of materials such as the usage status during movement, the performance of the maximum processing capacity or less may be DC3V as the second power layer of the substrate 100. Supply via 120. At this time, since the supply of the power supply voltage via the first power supply layer 110 and the second power supply layer 120 is exclusively controlled, the power supply is not short-circuited, and the logic LSI mounted on the substrate 100 is further prevented.
As for 600, it is not necessary to newly provide power supply pins for the number of different power supply voltages.

The power supply control circuit 230 for controlling the power supply voltage supplied to each component (control LSI, etc.) mounted on these boards is a 100V AC power supply 400 on a desk or the like.
2 is used as a driving power source, and two types of usage patterns are considered, when the battery (second power source) 500 is used as a driving power source when moving using a train or the like.

That is, as shown in FIG. 2, the power supply control circuit 230 discriminates the drive power supply used by the information processing apparatus, and when the AC power supply 400 is used as the drive power supply, such as in a desk, the processing performance is improved. DC5V that can bring out the maximum
(1st power consumption mode) and less than the maximum processing capacity in the case of the main usage such as data arrangement or data preparation using the battery 500 as a driving power source such as usage during movement DC3V (second power consumption mode
Supply).

As described above, in the present invention, the power saving control is achieved only by the simple discrimination of the driving power source.

One method of controlling 5V / 3V power supply voltage supply to the logic circuit section such as the CPU 200 in the power supply control circuit will be described with reference to FIG.

In FIG. 3, reference numeral 231 is a voltage converter for converting AC100V to DC5V, and 232 is AC10 from the outside.
Device side plug (power input terminal) to which 0V is supplied, SW
Is a switch for selecting either contact A to which the 3V power supply voltage is supplied from the battery 500 or contact B to which the 5V power supply voltage from the voltage conversion unit 231 is supplied. 233 is a device side plug 232 for which 100V AC from the outside is supplied. It is a mechanical means for notifying the switch SW that the power plug 235 to be supplied is inserted. Here, when the power plug 235 is now inserted into the device side plug 232, the mechanical means 233 selects the contact A of the switch SW, and automatically selects / supplies 5V as the power supply voltage.

Next, the mechanical means 233 will be described. A detection switch 234 is attached to the device side plug 232 to detect that the power plug 235 is inserted into the device side plug 232. The switch 234 is a mechanical switch, for example, the plug 235.
When the switch is inserted, the switch 234 is pushed up, and the mechanical means 233 mechanically transmits this pressure to the switch SW to select / switch the contact A. When the plug 235 is pulled out from the plug 232, the switch 23
The pressure to 4 disappears, the contact B is automatically selected / switched, and the power supply voltage of 3V from the battery 500 is started. The switch SW, the mechanical means 233, and the detection switch 234 are switching means. In addition, this contact B
The switch SW can be easily restored by using, for example, a spring. As described above, in the present invention, power saving control can be easily realized mechanically.

Further, the voltage switching for the purpose of power saving depending on the presence / absence of AC100V power supply, which is a feature of the present invention,
For example, even if the switch SW is a semiconductor switch,
The purpose can be achieved.

Although not shown, as another embodiment, instead of performing the power saving control in accordance with the usage pattern of the driving power source as in the above-described embodiment, it corresponds to the application processed by the processing device. To control the power supply voltage (DC5
Even if V⇔DC3V), it is possible to achieve the same effect, that is, low power consumption.

That is, for example, image data expansion processing (first processing mode) which requires the maximum performance of the CPU 200.
In such cases, DC5V is supplied, and when the maximum performance of the CPU 200 such as the word processor function (second processing mode) is not required, DC3V is supplied to perform power saving control. In addition, a high power supply voltage is supplied when high-performance processing is performed, and a low power supply voltage is supplied when low performance is required.

Although the hard disk device HDD 270 is used as an example of the external storage device in FIG. 1 described above, the external storage device includes, for example, a floppy disk device, an optical disk device and the like.

The present invention has the following effects.

(1) Power saving of the entire information processing apparatus can be performed by simple control of only the power supply voltage, instead of complicated power saving control by corresponding to parts.

(2) The switching control of the power supply voltage can be easily controlled only by determining whether or not the drive power supply is the AC power supply of 100V system.

(3) By providing a plurality of power supply layers on the substrate for individually supplying different power supply voltages, an LSI having the same power supply pin specifications can be used.

(4) As a result, low power consumption can be easily realized.

[0030]

As described above, since the present invention is constructed, it has the following effects. It is possible to provide an information processing apparatus that performs power saving control for the entire information processing apparatus, which is different from the power saving control that performs ON / OFF for each component in the related art.

[Brief description of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a flowchart showing an example of power saving control of the present invention.

FIG. 3 is a block diagram showing an embodiment of the present invention.

FIG. 4 is a block diagram showing an embodiment of the present invention.

[Explanation of symbols]

101 ... Information processing apparatus main body, 200 ... CPU, 210 ... RO
M, 220 ... RAM, 240 ... HDD controller, 250 ... L
CD controller, 260 ... keyboard controller, 2
70 ... Hard disk drive (HDD), 280 ... Liquid crystal display (LCD), 290 ... Keyboard, 320 ... Bus, 23
0 ... Power supply control circuit, 400 ... AC power supply, 500 ... Battery.

Claims (5)

[Claims] 1. An information processing apparatus having a central processing unit and a memory, wherein a power source input terminal from a first power source, a second power source, and switching means for switching between the first power source and the second power source. And the power supply voltage is the first power supply voltage when the first power supply is used, the second power supply voltage when the second power supply is used, and the first power supply voltage is An information processing device, which is higher than the power supply voltage of 2. 2. An information processing apparatus having a central processing unit and a memory, a power source input terminal from a first power source, a second power source, and switching means for switching between the first power source and the second power source. And a substrate on which the element is mounted, the substrate including a first power supply layer to which a first power supply voltage supplied from a first power supply is applied, and a second power supply layer supplied from a second power supply. And a second power supply layer to which a power supply voltage is added, the power supply voltage is the first power supply voltage when the first power supply is used, and the second power supply voltage is used when the second power supply is used. And a first power supply voltage is higher than a second power supply voltage. 3. The information processing apparatus according to claim 1 or 2, wherein the first power supply is an AC power supply of 100V, and the second power supply is a battery incorporated in the information processing apparatus. Information processing device. 4. An information processing apparatus having a central processing unit and a memory, a power source input terminal from a first power source, a second power source, and switching means for switching between the first power source and the second power source. And when using the first power supply, the first power consumption mode is used, and when using the second power supply, the second power consumption mode is used.
And a first power consumption different from a second power consumption. 5. The information processing apparatus according to claim 1, 2, 3 or 4, wherein the central processing unit uses a first power source,
The first processing mode is the second processing mode when the second power source is used, the processing capacity in the first processing mode and the second processing mode. An information processing device having different processing capacities.